The string swampland constraints require multi-field inflation

Achúcarro, Ana; Palma, Gonzalo A.

doi:10.1088/1475-7516/2019/02/041

The string swampland constraints require multi-field inflation

Ana Achúcarro
(
- Leiden U. and
- Basque U., Bilbao
)
,
Gonzalo A. Palma
(
- Chile U., Santiago
)

Jul 11, 2018

15 pages

Published in:

JCAP 02 (2019) 041

Published: Feb 18, 2019

e-Print:

1807.04390 [hep-th]

DOI:

10.1088/1475-7516/2019/02/041 (publication)

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Abstract: (IOP)

An important unsolved problem that affects practically all attempts to connect string theory to cosmology and phenomenology is how to distinguish effective field theories belonging to the string landscape from those that are not consistent with a quantum theory of gravity at high energies (the "string swampland"). It was recently proposed that potentials of the string landscape must satisfy at least two conditions, the "swampland criteria", that severely restrict the types of cosmological dynamics they can sustain. The first criterion states that the (multi-field) effective field theory description is only valid over a field displacement Δ ≤ Δ ~ (1) (in units where the Planck mass is 1), measured as a distance in the target space geometry. A second, more recent, criterion asserts that, whenever the potential V is positive, its slope must be bounded from below, and suggests |∇ V| / V ≥ c ~ (1). A recent analysis concluded that these two conditions taken together practically rule out slow-roll models of inflation. In this note we show that the two conditions rule out inflationary backgrounds that follow geodesic trajectories in field space, but not those following curved, non-geodesic, trajectories (which are parametrized by a non-vanishing bending rate Ω of the multi-field trajectory). We derive a universal lower bound on Ω (relative to the Hubble parameter H) as a function of Δ, c and the number of efolds Ne, assumed to be at least of order 60. If later studies confirm c and Δ to be strictly (1), the bound implies strong turns with Ω / H ≥ 3 Ne ~ 180. Slow-roll inflation in the landscape is not ruled out, but it is strongly multi-field.

Note:

v1: 15 pages; v2: 16 pages, references added, improved discussions, version accepted for publication in JCAP

string: potential
inflation: model
string model: landscape
effective field theory
slow-roll approximation
cosmological model
background: geometry
geodesic
multiple field

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